Inference of Bacterial Microevolution Using Multilocus Sequence Data
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Abstract
We describe a model-based method for using multilocus sequence data to infer the clonal relationships of bacteria and the chromosomal position of homologous recombination events that disrupt a clonal pattern of inheritance. The key assumption of our model is that recombination events introduce a constant rate of substitutions to a contiguous region of sequence. The method is applicable both to multilocus sequence typing (MLST) data from a few loci and to alignments of multiple bacterial genomes. It can be used to decide whether a subset of isolates share common ancestry, to estimate the age of the common ancestor, and hence to address a variety of epidemiological and ecological questions that hinge on the…
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2Topics & keywords
Topics
Keywords
- Multilocus sequence typing
- Biology
- Microevolution
- Genetics
- Whole genome sequencing
- Genome
- Sequence (biology)
- Computational biology
UN Sustainable Development Goals
- Good health and well-being
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